Michael F. Beers scite author profile

SUMMARY Lung alveoli, which are unique to air-breathing organisms, have been challenging to generate from pluripotent stem cells (PSCs) in part because there are limited model systems available to provide the necessary developmental roadmaps for in vitro differentiation. Here we report the generation of alveolar epithelial type 2 cells (AEC2s), the facultative progenitors of lung alveoli, from human PSCs. Using multicolored fluorescent reporter lines, we track and purify human SFTPC+ alveolar progenitors as they emerge from endodermal precursors in response to stimulation of Wnt and FGF signaling. Purified PSC-derived SFTPC+ cells form monolayered epithelial “alveolospheres” in 3D cultures without the need for mesenchymal support, exhibit self-renewal capacity, and display additional AEC2 functional capacities. Footprint-free CRISPR-based gene correction of PSCs derived from patients carrying a homozygous surfactant mutation (SFTPB121ins2) restores surfactant processing in AEC2s. Thus, PSC-derived AEC2s provide a platform for disease modeling and future functional regeneration of the distal lung.

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Emotion Regulation Abilities and the Quality of Social Interaction.

Lopes¹,

Salovey²,

Côté³

et al. 2005

Emotion

653

412

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Emotion regulation abilities, measured on a test of emotional intelligence, were related to several indicators of the quality of individuals' social interactions with peers. In a sample of 76 college students, emotion regulation abilities were associated with both self-reports and peer nominations of interpersonal sensitivity and prosocial tendencies, the proportion of positive vs. negative peer nominations, and reciprocal friendship nominations. These relationships remained statistically significant after controlling for the Big Five personality traits as well as verbal and fluid intelligence.

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Endoplasmic reticulum stress enhances fibrotic remodeling in the lungs

Lawson

Cheng

Degryse

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

323

307

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Evidence of endoplasmic reticulum (ER) stress has been found in lungs of patients with familial and sporadic idiopathic pulmonary fibrosis. We tested whether ER stress causes or exacerbates lung fibrosis by ( i ) conditional expression of a mutant form of surfactant protein C (L188Q SFTPC ) found in familial interstitial pneumonia and ( ii ) intratracheal treatment with the protein misfolding agent tunicamycin. We developed transgenic mice expressing L188Q SFTPC exclusively in type II alveolar epithelium by using the Tet-On system. Expression of L188Q SFTPC induced ER stress, as determined by increased expression of heavy-chain Ig binding protein (BiP) and splicing of X-box binding protein 1 (XBP1) mRNA, but no lung fibrosis was identified in the absence of a second profibrotic stimulus. After intratracheal bleomycin, L188Q SFTPC -expressing mice developed exaggerated lung fibrosis and reduced static lung compliance compared with controls. Bleomycin-treated L188Q SFTPC mice also demonstrated increased apoptosis of alveolar epithelial cells and greater numbers of fibroblasts in the lungs. With a complementary model, intratracheal tunicamycin treatment failed to induce lung remodeling yet resulted in augmentation of bleomycin-induced fibrosis. These data support the concept that ER stress produces a dysfunctional epithelial cell phenotype that facilitates fibrotic remodeling. ER stress pathways may serve as important therapeutic targets in idiopathic pulmonary fibrosis.

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A Surfactant Protein C Precursor Protein BRICHOS Domain Mutation Causes Endoplasmic Reticulum Stress, Proteasome Dysfunction, and Caspase 3 Activation

Mulugeta

Nguyen

Russo

et al. 2005

Am J Respir Cell Mol Biol

235

224

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BRICHOS is a domain found in several proteins consisting of ‫ف‬ 100 amino acids with sequence and structural similarities. Mutations in BRICHOS domain have been associated with both degenerative and proliferative diseases in several nonpulmonary organs, although the pathogenic mechanisms are largely undefined. Recently, several mutations in surfactant protein C (SP-C) mapping to the BRICHOS domain located within the proprotein (proSP-C) have been linked to interstitial lung diseases. In vitro expression of one of these BRICHOS mutants, the exon 4 deletion (hSP-C Surfactant protein C (SP-C) is a small hydrophobic protein, found in pulmonary surfactant, initially identified upon isolation from bronchoalveolar lavage of a variety of mammalian species. SP-C is synthesized in alveolar type II cells as a 21-kD integral membrane precursor (proSP-C), which undergoes proteolytic C-and N-terminal cleavages as it is trafficked through the biosynthetic pathway from the Golgi complex, by way of small vesicles and multivesicular bodies, to the lumen of lamellar bodies, yielding a 3.7-kD mature peptide (1, 2). Together with other surfactant proteins and phospholipids contained in the lamellar body, SP-C is released into the alveolar space, via regulated secretion (1, 3), where it functions to modulate lung surface tension during the respiratory cycle.(Received in original form January 6, 2005 and in final form February 22, 2005) Correspondence and requests for reprints should be addressed to Surafel Mulugeta, Ph.D

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The three R’s of lung health and disease: repair, remodeling, and regeneration

Beers

Morrisey²

2011

J. Clin. Invest.

280

234

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All tissues and organs can be classified according to their ability to repair and regenerate during adult homeostasis and after injury. Some exhibit a high rate of constant cell turnover, while others, such as the lung, exhibit only low-level cell regeneration during normal adult homeostasis but have the ability to rapidly regenerate new cells after injury. Lung regeneration likely involves both activation of progenitor cells as well as cell replacement through proliferation of remaining undamaged cells. The pathways and factors that control this process and its role in disease are only now being explored. In this Review, we will discuss the connection between pathways required for lung development and how the lung responds to injury and disease, with a particular emphasis on recent studies describing the role for the epithelium in repair and regeneration.Conflict of interest: The authors have declared that no conflict of interest exists.Citation for this article:

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S-Nitrosylation of Surfactant Protein-D Controls Inflammatory Function

et al. 2008

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The pulmonary collectins, surfactant proteins A and D (SP-A and SP-D) have been implicated in the regulation of the innate immune system within the lung. In particular, SP-D appears to have both pro- and anti-inflammatory signaling functions. At present, the molecular mechanisms involved in switching between these functions remain unclear. SP-D differs in its quaternary structure from SP-A and the other members of the collectin family, such as C1q, in that it forms large multimers held together by the N-terminal domain, rather than aligning the triple helix domains in the traditional “bunch of flowers” arrangement. There are two cysteine residues within the hydrophobic N terminus of SP-D that are critical for multimer assembly and have been proposed to be involved in stabilizing disulfide bonds. Here we show that these cysteines exist within the reduced state in dodecameric SP-D and form a specific target for S-nitrosylation both in vitro and by endogenous, pulmonary derived nitric oxide (NO) within a rodent acute lung injury model. S-nitrosylation is becoming increasingly recognized as an important post-translational modification with signaling consequences. The formation of S-nitrosothiol (SNO)-SP-D both in vivo and in vitro results in a disruption of SP-D multimers such that trimers become evident. SNO-SP-D but not SP-D, either dodecameric or trimeric, is chemoattractive for macrophages and induces p38 MAPK phosphorylation. The signaling capacity of SNO-SP-D appears to be mediated by binding to calreticulin/CD91. We propose that NO controls the dichotomous nature of this pulmonary collectin and that posttranslational modification by S-nitrosylation causes quaternary structural alterations in SP-D, causing it to switch its inflammatory signaling role. This represents new insight into both the regulation of protein function by S-nitrosylation and NO's role in innate immunity.

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Expression of mutant Sftpc in murine alveolar epithelia drives spontaneous lung fibrosis

et al. 2018

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Epithelial cell dysfunction is postulated as an important component in the pathogenesis of idiopathic pulmonary fibrosis (IPF). Mutations in the surfactant protein C (SP-C) gene (SFTPC), an alveolar type II (AT2) cell-restricted protein, have been found in sporadic and familial IPF. To causally link these events, we developed a knockin mouse model capable of regulated expression of an IPF-associated isoleucine-to-threonine substitution at codon 73 (I73T) in Sftpc (SP-CI73T). Tamoxifen-treated SP-CI73T cohorts developed rapid increases in SftpcI73T mRNA and misprocessed proSP-CI73T protein accompanied by increased early mortality (days 7-14). This acute phase was marked by diffuse parenchymal lung injury, tissue infiltration by monocytes, polycellular alveolitis, and elevations in bronchoalveolar lavage and AT2 mRNA content of select inflammatory cytokines. Resolution of alveolitis (2-4 weeks), commensurate with a rise in TGF-β1, was followed by aberrant remodeling marked by collagen deposition, AT2 cell hyperplasia, α-smooth muscle actin-positive (α-SMA-positive) cells, and restrictive lung physiology. The translational relevance of the model was supported by detection of multiple IPF biomarkers previously reported in human cohorts. These data provide proof of principle that mutant SP-C expression in vivo causes spontaneous lung fibrosis, strengthening the role of AT2 cell dysfunction as a key upstream driver of IPF pathogenesis.

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Michael F. Beers

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Differentiation of Human Pluripotent Stem Cells into Functional Lung Alveolar Epithelial Cells

Emotion Regulation Abilities and the Quality of Social Interaction.

Endoplasmic reticulum stress enhances fibrotic remodeling in the lungs

A Surfactant Protein C Precursor Protein BRICHOS Domain Mutation Causes Endoplasmic Reticulum Stress, Proteasome Dysfunction, and Caspase 3 Activation

The three R’s of lung health and disease: repair, remodeling, and regeneration

S-Nitrosylation of Surfactant Protein-D Controls Inflammatory Function

Expression of mutant Sftpc in murine alveolar epithelia drives spontaneous lung fibrosis

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Michael F. Beers

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Differentiation of Human Pluripotent Stem Cells into Functional Lung Alveolar Epithelial Cells

Emotion Regulation Abilities and the Quality of Social Interaction.

Endoplasmic reticulum stress enhances fibrotic remodeling in the lungs

A Surfactant Protein C Precursor Protein BRICHOS Domain Mutation Causes Endoplasmic Reticulum Stress, Proteasome Dysfunction, and Caspase 3 Activation

The three R’s of lung health and disease: repair, remodeling, and regeneration

S-Nitrosylation of Surfactant Protein-D Controls Inflammatory Function

Expression of mutant Sftpc in murine alveolar epithelia drives spontaneous lung fibrosis

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹